Driven to Distance And The Road Back

Driven to Distance And The Road Back By Dr. Valerie Scaramella-Nowinski and Drina Madden 1

Awakening the Brain 2

Withdrawal Reaction Five weeks after conception Embryo responds to experiences outside of itself Touch upper lip = withdrawal from stimulus 3

Withdrawal Reaction A few days later Sensitive area has spread Palms of hands Soles of feet Eventually Whole body is responsive to touch Withdrawal reaction is a full body reaction 4

PRIMITIVE REFLEXES 9 weeks in utero Withdrawal reactions disappear Primitive reflexes begin to appear They continue to develop through pregnancy 5

PRIMITIVE REFLEXES Neural development determines arrival and inhibition of reflexes Awareness of reflexes and their inhibition helps caregivers to adjust environments 6

PRIMITIVE REFLEXES Reflexes Insure protection for the embryo outside the womb Support survival 7

PRIMITIVE REFLEXES Are automatic responses directed from the brain stem Cortex does not assist 8

PRIMITIVE REFLEXES Should only remain a few months Midbrain and cortex take over their roles as reflexes are inhibited 9

PRIMITIVE REFLEXES Early weeks of life Brain stem dominates Movements are Basic head lifting Squirming Rolling 10

PRIMITIVE REFLEXES From 6-9 months Midbrain takes over Rolling Crawling Sitting Creeping Standing 11

PRIMITIVE REFLEXES 6-12 months Cortex takes over Stand Move with independent use of hands Multisensory connections and full brain memories build Frontal lobe can reason and plan logically 12

PRIMITIVE REFLEXES Reflexes that remain beyond 6-12 months of life indicate structural weakness or immaturity of the central nervous system 13

PRIMITIVE REFLEXES If remain to a great degree can negatively affect Motor functioning Sensory perception Cognition Means of expression/mood 14

PRIMITIVE REFLEXES Uninhibited reflexes Visual sensitivity Auditory sensitivity Tactile sensitivity Hyperactivity Hypo activity Brain s further development is slowed or sidetracked 15

PRIMITIVE REFLEXES By school age Lower and Midbrain are more developed Child can Receive information through word and action Process information through word and action Respond to information through word and action 16

An Environment That Fosters Reflex Auditory Assistance Inhibition Music sharpens auditory discrimination and increases rhythmic skills. It opens memory and sequence routes Encourage singing of nursery rhymes and sequences (days of the week, alphabet, etc.). Encourage tapping of the rhythm using various sound making techniques. 17

An Environment That Fosters Reflex Auditory Assistance Inhibition Listening exercises that cause the child to discriminate between which note is the higher of two notes. Encourage the child to sing each note. Record the child s voice on a tape recorder and then have him modify his singing after listening to the sound. 18

An Environment That Fosters Reflex Auditory Assistance Inhibition A listening training program that focuses on inclusion and exclusion of specific sounds allowing full stimulation of the auditory system. Tomatis and Samonas have presented systematic auditory training as well as Advanced Brain Technology through their Baby Listening - children birth to 3+) and The Listening Program (for children over 3 through to adults). 19

An Environment That Fosters Reflex Auditory Assistance Inhibition The Language Tune-up Kit is a program that teaches the sound and letter combination necessary for the reading through listening and repetition of sound/symbol combinations. (School aged children) 20

An Environment That Fosters Reflex Visual Assistance Inhibition Activities that emphasize: Eye movement Attention to visual detail from concrete to abstract Visual/motor activities of a basic nature to enhance multisensory brain connections 21

An Environment That Fosters Reflex Visual Assistance Inhibition Opportunities for seeing and saying in response to visual, auditory, kinesthetic and combined sensory activities Evaluation by a pediatric ophthalmologist to determine the health of the eye and a pediatric optometrist to determine the quality of eye movements and focusing 22

An Environment That Fosters Reflex Kinesthetic Palmar reflex Inhibition Clasping and unclasping the hand around an object Independent thumb opposition and finger movements Finger exercises with hands separately and then making different movements with hands together 23

An Environment That Fosters Reflex Kinesthetic Inhibition Moro reflex - Create a relaxed but alert environment Minimize external noises Maximize visual focusing opportunities Seat children with focusing difficulties in the least busy space possible 24

An Environment That Fosters Reflex Inhibition Kinesthetic Tonic Labyrinthine Reflex Well-ordered and precise information one concept at a time with minimal interference Much concrete experience Stretching and flexion exercises on the stomach and on the back with eyes closed 25

An Environment That Fosters Reflex Inhibition Kinesthetic Asymmetrical Tonic Neck Reflex Extra space for activity completion due to awkwardness and need to follow through on movement Individual work/learning space to assist concentration 26

An Environment That Fosters Reflex Inhibition Kinesthetic Asymmetrical Tonic Neck Reflex School aged children By-pass fine motor responses Maximize expression through their stronger modes. Computers, tape recorders and reading guide cards can help many reflex issues. 27

An Environment That Fosters Reflex Kinesthetic Inhibition Symmetrical Tonic Neck Reflex Training program that emphasizes slow rocking on hands and knees in response to head movement and short periods of crawling and creeping can bring about positive changes in reflex inhibition 28

An Environment That Fosters Reflex Inhibition Kinesthetic Symmetrical Tonic Neck Reflex Posture while working may be difficult to maintain. Adjust the placement of activities so the child is free to use his hands and eye movement while learning 29

An Environment That Fosters Reflex Inhibition Kinesthetic Other exercises Rolling body with eyes closed then open initiating movement from one part of the body Creeping on a slanted board Scooter or wobble board first lying, then sitting, to kneeling, standing and use of a minitrampoline Swings spinning and regular Slides, climbers and tunnels Feldenkrais 30

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Senses have separate organs for reception Thalamus the sensory gate controls the synchrony of all sensations readying the child to receive through all senses Experiences are stored in sensory specific parts of the brain 32

DEPEND ON EACH OTHER FOR MUCH OF THEIR FUNCTIONING Vision and hearing both depend on inner ear (vestibular system) Awareness of body in space Location of sights/sounds 33

Touch and sight often share the same moments Hearing joins in When we see we often smell and/or taste We must smell to experience flavor 34

Sensory experiences rely on Clear impressions from the sense organ Clear information processing For appropriate response 35

Problem with one sense organ can have major impact on reception of other sensory experience Overloading one system can cause another to shut down 36

Balance and vestibular 37

Balance and vestibular Balance is the core of sensory functioning First system fully developed Begins 16 th week in utero Myelinated at birth 38

Balance and vestibular Function Allows a sense of direction and orientation in utero Helps cope with gravity 39

Balance and vestibular Brain areas Inner ear Semicircular canals and cochlea Fluid and hairs provide information regarding» Direction» Angle» Extent of movement Passed to brain stem level for transmission to cerebellum 40

Balance and vestibular Hearing is affected by vestibular and Vestibular affects hearing Vestibular and reflex system are bound to visual system Eye motor Visual perception Balance Eye tracking Motor planning 41

Balance and vestibular Inappropriate vestibular signals causes REFLEX reactions to occur 42

Balance and Vestibular Uninhibited reflex activity will slow down vestibular function Balance problems Motion sickness Dislike of heights, swings, carousels Disorientation Difficulty sitting still Eye-motor dysfunction Visual perception difficulties Directional awareness problems Spatial perception difficulties Organizational problems 43

Tactile Our first source of contact with the world 44

Tactile 5 weeks after conception Withdrawal reaction Defensive response 4 weeks later Whole region of face, palms, soles, then whole body 45

Tactile 2 nd -3 rd Trimester allows grasping reflexes Birth = security, feeding, comfort, exploration 46

Tactile Precedes hearing and vision as primary learning channels Registers Heat Cold Pain Body position 47

Tactile Over-active protective subsystem Touch is not comforting Touch cannot send information Withdrawal results Certain clothes Contact sports Poor body image Sense of self in space Extreme withdrawal = anorexia (poor body image) 48

Tactile Good development Better immune system Better infant weight gain Poor development Much self stimulation/rocking 15 minute massage daily can make a change 49

Tactile Uninhibited Hypersensitive Not like being touched Allergic skin reactions Poor temperature control Low external pain threshhold Anorexia Dislike of sports 50

Tactile Uninhibited Hyposensitive High pain threshhold Crave contact sports Provoke rough and tumble play Compulsive need to touch Bull in China Shop 51

Tactile Uninhibited Lack of discriminative system Dare devil Not sense danger Oblivious to injury Cannot read body language 52

Auditory Formation 2 nd ½ of mid embryonic life (4 8 weeks) Myelination occurs 24 th 28 weeks Able to hear internal and external sound 53

Auditory First three years Picks up the sound of own language After 3 more difficult to learn a new language 54

Auditory Hearing loss can cause Hearing discrimination difficulties /ch/ and /sh/ /th/ and /f/ /p/ and /b/ Poor filter Poor listening skills Communication difficulties Behavior problems 55

Auditory Poor filter Hyperacuity Hear too much Affects concentration Causes speech difficulties Problems with socialization Hyperactivity when hypersensitive to HIGH, energetic sounds 56

Auditory Poor filter Short attention Distractibility Hypersensitivity to sound Misinterpretation of directions Confusion of similar sounding words Hesitant speech 57

Auditory Poor filter Weak vocabulary Poor sentence structure Can t sing in tune Confusion or reversal of letters Reading comprehension 58

Visual Eyes must work together Distance of focusing must be adjusted Scanning/tracking must be smooth and even Good directional awareness needs vestibular connection 59

Visual Perception is decreased if reflexes not inhibited During first year of life eye/brain/body connect 60

Visual Problems with reflex inhibition Poor posture Clumsy Difficulty playing ball games Fatigue when using eyes Concentration is down Work close to work surface 61

Visual Problems with reflex inhibition Poor spacing Crooked handwriting Misread words Miss or repeat words while reading Slow reading Use finger when reading Can t remember what they read 62

Proprioceptive Know where body parts are at any given moment Receptors are in joints, tendons, and muscles 63

Proprioceptive Difficulties with reflex inhibition Need to move constantly to get spatial feedback Inconsistent performance Poor posture Fidget Excessive desire to be held Provoke fights Visual problems 64

Taste/smell Smell goes directly to olfactory bulb for storage Smell is the source of flavors 65

Taste/smell Hypersensitivity Avoid bathrooms due to smell Avoid other children due to smells Misbehave after some smell exposure Avoid cafeteria and strong food smells Not want to be near others Hyposensitivity eat indiscriminately 66

Sensory experiences rely on Clear impressions from the sense organ Clear information processing For appropriate response 67

AWAKENING THE BRAIN NeuroSystems Therapy From Brain Stem to Cortex Excitation-Inhibition Methods (consolidation efficient memory traces) 68

AWAKENING THE BRAIN Relaxed alertness: mood regulation Reflex modulation: i.e. Feldenkrais Sensory modulation:auditory (auditory training, Tomatis ),visual (optic motor therapy, colored lenses ), tactile therapy ( brushing, deep pressure ) Language: external speech to internal speech Use with visual stimuli and movement (I.e. Picture Exchange Program, Carol Gray Social Stories) 69

AWAKENING THE BRAIN Use Repetition, Recollection and Reflection Leads to self-direction executive function (development of self and relationship with others) 70